JP2010504545A - Connection for optical connection and method for connecting two optical fibers - Google Patents

Abstract

  The connection portion (1) for optically connecting the first optical fiber (2) to the second optical fiber (3) is a first cable receiving section capable of accommodating the first optical fiber (2). A sleeve-like cable mount (4) having (5) and a second cable receiving section (6) capable of accommodating a second optical fiber (3). The optical fiber ends (23, 24) of the two optical fibers (2, 3) can be welded together. Thus, the second cable receiving section (6) is designed along the central longitudinal axis (L) so that it can be assembled and is pivotable about the joint (10). Part (10, 10 '). The welding point is located in the pivot range of the casing. The cable mount includes a cover and a screw-on cover sleeve (8) for fixation.

Description

  The present invention relates to a connecting portion for optically connecting a first optical waveguide to a second optical waveguide as described in the premise of claim 1. The invention also relates to a method for connecting two optical waveguides as described in the preamble of claim 9. Such a connection is used in particular for optical waveguide cables and is prefabricated at one or both ends. Such cables are also known to those skilled in the art by the expressions “pigtail” (one end) and “patch cord” (both ends).

  As an example from the prior art, WO 2004/001471 discloses a plug part for optical plug connection, the plug pin being connected after being pre-mounted on a pin holder at the factory. The plug part is completed by welding the optical waveguide of the plug pin to the optical waveguide of the optical waveguide cable under field conditions. In order to enable this welding, the pin holder has two housing parts, which are pivotable and in which the welding point can be released. The pin holder is formed in two parts, each part having an associated housing part which can be pivoted. The completed pin holder with the optical waveguides welded together is then inserted into the plug housing, which is finally inserted into the corresponding socket part to provide an optical plug connection. Such a plug connection has the disadvantage of requiring a relatively large space. Furthermore, in particular, it has been found that, for example, plug connections are not suitable for repairing damaged optical waveguide cables. This is because, in addition to the above-described drawbacks, attenuation loss occurs in the plug connection.

  One object of the present invention is therefore to avoid the disadvantages of the known prior art, in particular to provide a connection of the type mentioned at the beginning which is particularly suitable for repair purposes. One particular goal is to ensure that the connection is used for pigtails or patch cords. Connections should then be distinguished by cost advantages and ease of handling.

  According to the invention, this object is achieved by a connection having the features of claim 1. Unlike WO2004 / 001471, a pin holder that can be assembled in advance is not provided, and a cable holder that can be assembled in advance is provided. Instead of the plug pin, one end of the optical waveguide cable, that is, the first optical waveguide can be held by the first cable holding section. By attaching the cover sleeve to the cable holder, it is possible to advantageously provide a compact connection between the two optical waveguide cables. The elements of the cable holder designed to be bondable can be held together in a simple manner with the aid of a cover sleeve. Since the two optical waveguides are only welded together, attenuation loss can be avoided.

As an example, only the second cable retention section may be designed so that it can be joined. Of course, it is also possible for the cable holder to be designed so that it can be totally joined, in which case, like WO 2004/001471, it is on a plane extending through the longitudinal central axis, It may include two essentially identical shell parts that can be joined. It is also feasible to place a splittable protective sleeve in the second cable holding section that can be closed around the weld point. Such a protective sleeve is WO 20
04/001472.

  The attachment means for attaching the cover sleeve to the cable holder may be a screw connection. However, other attachment means are of course feasible, for example a snap action connection or a latch connection. The screw connection is an advantageous and removable connection configuration, which allows a good fixation.

  For a particularly advantageous screw connection, a male screw for screw connection to the cover sleeve can be provided in the region of the cable side end of the first cable holding section.

  The male screw may be disposed on the crimping portion, and the crimping portion may be disposed at the end of the cable holder on the cable side and may be made of metal. Such a crimping part can form an advantageous end of the cable holder. The cable holder itself may be made of plastic. The cover sleeve may be made of plastic like the cable holder, or may be made of metal like the crimping part.

  The cover sleeve may be in the form of a hollow cylindrical component, on the inside of which an internal thread is arranged, corresponding to the external thread. The cover sleeve may have an insertion side, through which the cover sleeve can be attached to the second cable holding section. A preferably circumferential ridge pointing inward can be arranged on the opposite side of the cover sleeve from the insertion side to form a fastener. This fastener interacts with the corresponding shoulder on the cable holder in a limited position, thus fixing the limited position after the cover sleeve is fully screwed.

  In yet another embodiment, the second cable retention section may have at least one housing portion that is pivotable by a joint over a specific pivot angle between an open position and a closed position. Good. In this case, the welding point may be located in the pivot area of the casing. In this case, however, it is advantageous to provide two housing parts that can be pivoted and joined. When the housing part is pivoted outwards, the two optical waveguides can be welded together in a particularly simple manner.

  It is particularly advantageous that the first cable holding section is integrally formed. In this case, the second cable holding section may include two housing parts connected to the first cable holding section via joints. Due to the small number of components for the connection, handling is advantageous.

  The invention also relates to a method for connecting two optical waveguides having the features of claim 9.

  Further detailed features and advantages of the present invention will become apparent from the exemplary embodiments described in the following text and from the drawings.

It is a disassembled perspective view of the connection part according to this invention. It is a perspective view of the connection part which has the cable holder and sleeve for cover which were mounted | worn beforehand. It is sectional drawing which passes along the connection part of two optical waveguides using the connection part as shown in FIG. 2 before mounting | wearing with the sleeve for covers. It is sectional drawing which passes along the connection part of two optical waveguides using the connection part as shown in FIG. 2 with which the sleeve for covers was mounted | worn. It is a figure which shows the cable structure (Pigtail cable) in which the cable holder as shown in FIG. 2 was provided in the end. It is a figure which shows the cable structure (patch cord cable) with which the cable holder was provided in both ends.

  FIG. 1 shows the individual components of the connection annotated 1 throughout. The connection 1 essentially comprises a cable holder 4 holding a first optical waveguide, annotated 2 in a pre-assembled state, and a cover sleeve 8. The cable holder includes two shell portions designed to be joinable along the longitudinal axis L. Each shell portion includes a housing portion 10 or 10 ′ that can be pivoted outward and a housing portion 12 or 12 ′ connected thereto via a film hinge 11. Furthermore, the crimping part 9 is visible, whereby the shell parts are held together (see the next FIG. 2). A protective sleeve which is splittable and has protective sleeve portions 13 and 13 ′ can be placed in the respective housing part 10 or 10 ′ in the cable holding section 6 and closed again. The first cable holding section 5 can of course be formed integrally.

  The basic design of the cable holder 4 corresponds analogously to the design of a pin holder as described in WO 2004/001472. However, the cable holder according to the present invention is different from the cable holder of the present invention in that, in addition to having a different purpose, an additional component (that is, a crimping sleeve 9) is provided to hold the shell portions together. Therefore, for further design details, reference is made to WO 2004/001472, which is expressly included herein as part of the present disclosure. This embodiment of the cable holder 1 as shown in FIG. 1 is virtually the same as the pin holder shown in FIG. 1 of WO 2004/001472. If necessary, it is of course possible to dispense with the protective sleeves 13, 13 ', as disclosed for example in WO 2004/001471.

  As can be seen from FIG. 2, the pre-assembled cable holder and cover sleeve 8, which will be described in more detail in the following text, provide an optical connection to connect the two optical waveguides. , Actually used advantageously. Each of the optical waveguides 2 and 3 has bare optical waveguide ends 23 and 24, which can be connected to each other by a welding process. As can be seen, the two shell parts are held together by the crimping part 9 in the region of the housing parts 12 and 12 ′. The housing portions fixed to each other by the crimping portion 9 define a first cable holding section 5 that holds the first optical waveguide 2. The housing parts 10 and 10 ′ provide a second cable holding section 6 that can hold the second optical waveguide 3.

  The cover sleeve 8 can be attached to the cable holder 4 from the second cable holding section 6 and can be attached to the cable holder 4 to cover it (see FIG. 3). For this purpose, an external thread 7 is provided on the first cable holding section 5. In a corresponding manner, corresponding female threads 21 are arranged inside the cover sleeve. By screwing the cover sleeve into the cable holder, the cable holder can be advantageously covered and fixed.

  The crimping part 9 has a male threaded section for the male thread 7, which is located between the crimping section 14 and the end section 15 for crimping the crimping part to the housing parts 12, 12 ′. The end section 15 forms an end portion on the cable side of the cable holder 4 for the optical waveguide 2. By crimping the crimping part 9 on the cable holder, a virtually permanent connection can be brought about in a particularly advantageous manner. Of course, it is also possible to dispense with a metal crimping part and to provide, for example, a male screw directly on the housing part 12 or 12 '.

FIG. 2 shows the connecting part 1 slightly modified from FIG. The main difference from the exemplary embodiment shown in FIG. 1 is in particular the different configuration of the protective sleeve part 13 or 13 '. As can be clearly seen from FIG. 2, the protective sleeve portions 13 and 13 'inserted into the corresponding receptacles by the plug-in head each have side sections 25 and 25' inclined inward on both sides, respectively. Thereby, when the protective sleeve is closed, an advantageous tightening effect is added to the optical waveguide.

  FIG. 3 shows a state in which the exposed conductor ends are welded together and the housing 10 of the cable holder 4 is pivoted to a closed position. A cover sleeve 8 can be mounted from the second cable holding section to cover the cable holder. For attachment to the cable holder 4, a male screw 7 is provided in the region of the end of the first cable holding section 5 on the cable side.

  FIG. 4 shows the completed optical connection between the optical waveguide cables 2 and 3. As can be seen, in this case the screwed cover sleeve 8 is in the final position. This final position is defined by a shoulder 16 pointing inward at the cable side end of the cover sleeve. This shoulder 16 interacts with a corresponding edge 17 of the housing parts 10 and 10 'that forms a fastener for the shoulder.

  5 and 6 show a preferred exemplary embodiment of the connection described above. FIG. 4a shows a so-called pigtail, i.e. a cable holder 4 provided at one end and a plug part 26, e.g. a plug part such as F-3000 (registered trademark) type or E-2000 (registered trademark) type, at the other end. The pigtail cable 18 is related. FIG. 4b relates to a patch cord cable 19 in which the cable holder 4 is provided at both ends.

Claims (9)

A connection portion (1) for optically connecting the first optical waveguide (2) to the second optical waveguide (3), the first cable capable of holding the first optical waveguide (2) It has a sleeve-like cable holder (4) including a holding section (5) and a second cable holding section (6) capable of holding the second optical waveguide (3). The optical waveguide ends (23, 24) of the waveguides (2, 3) can be welded together, and at least the second cable holding section (6) can be joined along the longitudinal central axis (L). Is designed to be
An attachment means (7) is provided in the first cable holding section (5), preferably at the cable-side end of the first cable holding section, with the aid of which it can be mounted from the second cable holding section. Connection (1), characterized in that a cover sleeve (8) is attached or attachable to cover the cable holder.   2. Connection (1) according to claim 1, characterized in that the attachment means (7) for attaching the cover sleeve (8) to the cable holder (4) is a screw connection.   3. A male screw (7) for screw connection to the cover sleeve (8) is provided in the region of the cable-side end of the first cable holding section. The connection (1) described.   The male screw (7) is provided on the crimping part (9), and the crimping part (9) is arranged at the end of the cable holder on the cable side and is made of metal. Connection part (1) as described in.   The second cable holding section (6) has at least one housing part (10, 10 ') pivotable by the joint (10) over a specific pivot angle between the open and closed positions. The connecting part (1) according to any one of claims 1 to 4, characterized in that it has a welding point located in a pivot region of the housing part.   The first cable holding section (5) is integrally formed and the second cable holding section (6) is connected to the first cable holding section via a joint (11) 2 6. Connection (1) according to claim 5, characterized in that it comprises two housing parts (10, 10 ').   7. For a connection according to claim 1, comprising attachment means for attachment to the cable holder (4), in particular having an internal thread (21) for screwing into the cable holder (4). Cover sleeve.   The cable structure which has a cable including the optical waveguide (2) in which the at least one end is formed by the connection part in any one of Claims 1-6. In particular, a method for connecting two optical waveguides (2, 3) by a connection part according to any one of claims 1 to 6, wherein the connection part can be joined along a central axis (L) in the longitudinal direction. And having a sleeve-like cable holder (4) designed at least in some places and having two housing parts (),
The bare conductor end (22) of the first optical waveguide (2) and the opposite bare conductor end (23) of the second optical waveguide (3) are inserted into the cable holder (4); ,
The exposed conductor ends are welded together, and the weld point is located in the pivot region of the housing;
The case is pivoted to the next closed position;
A method, characterized in that a cover sleeve (8) is mounted and attached to cover the cable holder.

Images